This property contributes to longer component lifespan, reduced maintenance, and increased efficiency. High Temperature Stability: Advanced Ceramics exhibit excellent thermal stability and can withstand extreme temperatures without significant degradation. They have low thermal expansion coefficients, meaning they maintain their shape and structural integrity even at high temperatures. This characteristic makes them valuable in industries like aerospace, energy, and electronics, where materials must endure high heat conditions.
Electrical Insulation: Advanced Ceramics possess exceptional electrical insulation properties, making them suitable for applications that require electrical isolation and protection. They have low electrical conductivity, high dielectric strength, and are often used in electronic components, insulators, and circuit boards. Their electrical properties, combined with their high-temperature stability, make them invaluable in the electronics and telecommunications industries. Chemical Resistance: Many advanced ceramics exhibit excellent chemical resistance, allowing them to withstand corrosive environments.
The usage of Advanced Ceramics are various and diverse. They are utilized as an alternative for metals, alloys, and amalgams in several industries such as electrical & electronics, vehicle, aerospace, and defense. Advanced ceramics show superior corrosion resistivity, which aids decrease maintenance price and interruptions owing to equipment outbreak. This is particularly essential in extreme surroundings such as oil field and military & aerospace uses. In Addition, they also have completely low thermal expansion than the metals or aluminum.
